Secure Semiconductor Device Having Features to Prevent Reverse Engineering
Abstract
An encryption circuit for receiving an input of a first digital key and plaintext data, the encryption circuit for mathematically manipulating the digital key and the plaintext data to encrypt the plaintext data into encrypted data, wherein at least a portion of the encryption circuit comprises IBG circuitry. A decryption circuit for receiving an input of a second digital key and the encrypted data, the decryption circuit for mathematically manipulating the digital key and the encrypted data to decrypt the encrypted data into the plaintext data, wherein at least a portion of the decryption circuit comprises IBG circuitry
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1 . A digital security system comprising:
an encryption circuit for receiving an input of a first digital key and plaintext data, the encryption circuit for mathematically manipulating the digital key and the plaintext data to encrypt the plaintext data into encrypted data, wherein at least a portion of the encryption circuit comprises means for IBG circuitry.
2 . The digital security system of claim 1 further comprising:
a decryption circuit for receiving an input of a second digital key and the encrypted data, the decryption circuit for mathematically manipulating the digital key and the encrypted data to decrypt the encrypted data into the plaintext data,
wherein at least a portion of the decryption circuit comprises means for IBG circuitry.
3 . The digital security system of claim 2 wherein the first digital key equals the second digital key.
4 . The digital security system of claim 3 wherein at least one of the first digital key and the second digital key is a public key.
5 . The digital security system of claim 1 wherein the encryption circuit is adapted for forming a digital signature.
6 . The digital security system of claim 1 wherein the encryption circuit comprises a private algorithm.
7 . The digital security system of claim 2 wherein the decryption circuit comprises a private algorithm.
8 . The digital security system of claim 2 wherein the first digital key does not equal the second digital key.
9 . The digital security system of claim 8 wherein at least one of the first digital key and the second digital key is a public key.
10 . The digital security system of claim 9 wherein the encryption circuit comprises a private algorithm.
11 . The digital security system of claim 2 wherein at least one of the encryption circuit and the decryption circuit is disposed in an imaging cartridge chip.
12 . The digital security system of claim 2 wherein at least one of the encryption circuit and the decryption circuit is disposed in an imaging device.
13 . A digital security system comprising:
a decryption circuit for receiving an input of a digital key and encrypted data, the decryption circuit for mathematically manipulating the digital key and the encrypted data to decrypt the plaintext data into plaintext data, wherein at least a portion of the decryption circuit comprise means for IBG circuitry.
14 . The digital security system of claim 13 wherein the decryption circuit is disposed in an imaging cartridge chip.
15 . The digital security system of claim 13 wherein the decryption circuit is disposed in an imaging device.
16 . The digital security system of claim 13 wherein the decryption circuit comprises a private algorithm.
17 . A method of forming a digital security circuit comprising:
designing an encryption algorithm; and forming an integrated circuit comprising devices to perform the encryption algorithm, wherein at least a portion the devices comprise means for IBG circuitry.
18 . The method of claim 17 wherein the encryption algorithm is a private algorithm.
19 . A method of forming a digital security circuit comprising:
designing an decryption algorithm; and forming an integrated circuit comprising devices to perform the decryption algorithm, wherein at least a portion the devices comprise means for IBG circuitry.
20 . The method of claim 19 wherein the encryption algorithm is a private algorithm.Join the waitlist — get patent alerts
Track US2015071434A1 — get alerts on status changes and closely related new filings.
We store only your email — no account needed. See our privacy policy.